CN116204020A

CN116204020A - Carbon neutralization monitoring system

Info

Publication number: CN116204020A
Application number: CN202310050884.0A
Authority: CN
Inventors: 周培沛; 丛彬地; 吕杰; 罗锋; 朱承刚
Original assignee: Shandong Runda Engineering Design Co ltd
Current assignee: Shandong Runda Engineering Design Co ltd
Priority date: 2023-02-02
Filing date: 2023-02-02
Publication date: 2023-06-02
Anticipated expiration: 2043-02-02
Also published as: CN116204020B

Abstract

The invention relates to the technical field of carbon neutralization monitoring systems, and discloses a carbon neutralization monitoring system which comprises a ground-laying draft tube, wherein a trunk surrounding assembly is arranged on the outer side of the ground-laying draft tube, the trunk surrounding assembly comprises a winding ring and a plurality of inclined distribution tubes, a photosynthesis area for absorbing carbon dioxide is arranged on the inner side of the winding ring, and the ground-laying draft tube is in sealing connection with the winding ring for carrying out liquid and gas penetration; the numerical value of temperature, humidity and carbon dioxide is being monitored in the photosynthesis district, and according to the carbon neutralization condition in the numerical value judgement district, if the effect of carbon neutralization is lower, through the feedback of humidity temperature, when meetting heavy rain weather, can make the rainwater collect in the gravity case that holds water, make two printing opacity waterproof cloths open protection plants, reduce the influence of heavy rainfall to the plant to promote photosynthesis, strengthen photosynthesis in the carbon dioxide control, with furthest improvement carbon neutralization efficiency.

Description

Carbon neutralization monitoring system

Technical Field

The invention relates to the technical field of carbon neutralization monitoring, in particular to a carbon neutralization monitoring system.

Background

Carbon neutralization is particularly important for environmental protection due to higher carbon emission caused by urban and industrial development in some areas, and refers to the total carbon dioxide or greenhouse gas emission generated directly or indirectly by countries, enterprises, products, activities or individuals in a certain time, and the carbon dioxide or greenhouse gas emission generated by the plants is offset by means of tree planting, energy conservation, emission reduction and the like, so that positive and negative offset is realized, relative zero emission is achieved, the influence of the environment of the plant planting area is achieved, more factors influencing the photosynthesis of plants, such as lack of excessive moisture, can cause photosynthesis to be reduced, and when the plants meet stormwater, rainwater is hit on blades, the growth speed of the plants is blocked or the blades are damaged easily, so that photosynthesis is reduced, if the plants are not timely processed, the growth of the crops is limited, the probability of leaf aging is increased, photosynthesis is reduced, and the overall carbon neutralization efficiency is low.

Disclosure of Invention

The invention aims to provide a carbon neutralization monitoring system, which is used for monitoring the temperature, the humidity and the numerical value of carbon dioxide in a photosynthesis area, judging the carbon neutralization condition in the area according to the numerical value, and strengthening photosynthesis while monitoring the carbon dioxide through feedback of the humidity temperature if the carbon neutralization effect is low, so that the carbon neutralization efficiency is improved to the greatest extent, and the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the carbon neutralization monitoring system comprises a ground ventilation pipe, wherein a trunk surrounding assembly is arranged at the outer side of the ground ventilation pipe, the trunk surrounding assembly comprises a winding ring and a plurality of inclined distribution pipes, a photosynthesis area for absorbing carbon dioxide is arranged at the inner side of the winding ring, and the ground ventilation pipe is in sealing connection with the winding ring for carrying out liquid and gas penetration; the rainwater blocking assembly comprises a fixed frame, a stress movable frame and light-transmitting waterproof cloth, wherein the outer wall of the stress movable frame is fixedly connected with a water storage gravity box used for rainwater driving movement, and the two light-transmitting waterproof cloth are distributed in a staggered mode to block rainwater.

As still further aspects of the invention: the inclined distribution pipes are fixed at the top of the winding ring, a collecting box is arranged at the outer side of the winding ring and is in sealing connection with the ground paving flow-through pipe through a pipeline, a valve is fixedly arranged at the outer side of the pipeline, and an air inlet end is arranged at one end of the ground paving flow-through pipe.

As still further aspects of the invention: one end of the light-transmitting waterproof cloth is fixed on the fixing frame, the other end of the light-transmitting waterproof cloth is fixed on the stress movable frame, and the horizontal position of one end of the light-transmitting waterproof cloth on the fixing frame is lower than one end of the light-transmitting waterproof cloth on the stress movable frame.

As still further aspects of the invention: the utility model discloses a water storage gravity box, including atress movable frame, fixing base, water storage gravity box bottom, along power spacing slider, the atress movable frame below is equipped with the fixing base, fixing base top fixedly connected with spacing guide rail, just water storage gravity box bottom fixedly connected with is along power spacing slider, it is in to follow power spacing slider slides in the spacing guide rail.

As still further aspects of the invention: elastic ropes are connected between the fixed frame and the stressed movable frame, and are parallel to the limiting guide rails.

As still further aspects of the invention: and a carbon dioxide detection module is arranged in the photosynthesis area, and the effect of carbon neutralization is judged according to the numerical value detected by the carbon dioxide detection module.

As still further aspects of the invention: and a humidity sensor and a temperature sensor are arranged in the photosynthesis area, and ventilation and spray feedback are carried out on plants according to the detected values.

As still further aspects of the invention: the water storage gravity box and the limiting guide rail are provided with drain holes, and the outer side of the collecting box is provided with a water collecting pipe.

As still further aspects of the present invention, a carbon neutralization monitoring system includes the following methods:

a: the method comprises the steps that the values of temperature, humidity and carbon dioxide are monitored in a photosynthesis area, the carbon neutralization condition in the area is judged according to the values, if the carbon neutralization effect is low, the temperature is fed back through humidity and temperature, when the temperature is low, the temperature is blown to plants to be ventilated, and when the humidity is low, liquid is sprayed through the inclined distribution pipes, so that photosynthesis is promoted;

b: when encountering heavy rain weather, can make the rainwater collect deposit water gravity incasement, thereby drive under the effect of gravity along power spacing slider is in spacing guide rail is interior to slide, makes two printing opacity waterproof cloth open and protects the plant, reduces the influence of heavy rainfall to the plant, in order to promote photosynthesis.

Compared with the prior art, the invention has the beneficial effects that:

the temperature, humidity and carbon dioxide's numerical value are being monitored in the photosynthesis district, judge the carbon neutralization condition in the district according to the numerical value, if the effect of carbon neutralization is lower, through the feedback of humidity temperature, when the temperature is high, blow to the plant through the slope distribution pipe and ventilate, when humidity is low, spray through slope distribution pipe blowout liquid, in order to promote photosynthesis, when meetting the heavy rain weather, can make the rainwater collect in the gravity box that holds water, thereby drive down force limit slide block slides in spacing guide rail under the effect of gravity, make two printing opacity waterproof cloths open and protect the plant, reduce the influence of heavy rainfall to the plant, with the photosynthesis is promoted, carry out the intensive photosynthesis in the carbon dioxide control, in order to improve carbon neutralization efficiency in the maximum extent.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a carbon neutralization monitoring system;

FIG. 2 is a schematic diagram of a trunk enclosure assembly in a carbon neutralization monitoring system;

FIG. 3 is a schematic view showing the state of the open light-transmitting tarpaulin in the carbon neutralization monitoring system;

FIG. 4 is a schematic illustration of a configuration of a curb rail in a carbon neutral monitoring system;

FIG. 5 is a system diagram of a photosynthesis zone in a carbon neutralization monitoring system;

in the figure: 1. paving a ventilation pipe; 11. an air inlet end; 2. a trunk surrounding assembly; 21. winding a coil; 22. inclined distribution pipes; 23. a photosynthesis zone; 24. a collection box; 3. a rain water blocking assembly; 31. a fixing frame; 32. a stress movable frame; 321. a forward force limiting slide block; 33. light-transmitting waterproof cloth; 34. an elastic rope; 35. a fixing seat; 36. a spacing guide rail; 37. and a water storage gravity box.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, a carbon neutralization monitoring system includes a ground ventilation pipe 1, a trunk surrounding assembly 2 is disposed outside the ground ventilation pipe 1, the trunk surrounding assembly 2 includes a winding coil 21 and a plurality of inclined distribution pipes 22, a photosynthesis area 23 for absorbing carbon dioxide is disposed inside the winding coil 21, and the ground ventilation pipe 1 is hermetically connected with the winding coil 21 for performing liquid and gas penetration; the two sides of the ground paving draft tube 1 are provided with rainwater blocking components 3, the rainwater blocking components 3 comprise a fixed frame 31, a stress movable frame 32 and light-transmitting waterproof cloths 33, the outer wall of the stress movable frame 32 is fixedly connected with a water storage gravity box 37 used for driving rainwater to move, and the two light-transmitting waterproof cloths 33 are distributed in a staggered mode to shield rainwater.

In this embodiment: through the forest is regional construction this system, is equipped with carbon dioxide detection module in the photosynthesis district 23, judges the effect of carbon neutralization according to the numerical value that carbon dioxide detection module detected, can detect the carbon dioxide content in the district through carbon dioxide detection module, and carbon dioxide detection module can be the carbon dioxide detector, detects regional internal gas content, if the content is higher then the inefficiency of carbon neutralization, needs to judge the state of plant.

When the system is built, the ground paving through-flow pipe 1 is arranged on the ground or buried under the ground, the winding ring 21 can be arranged at the position of the trunk, the photosynthesis area 23 formed in the winding ring 21 is generated by photosynthesis of plants, and the photosynthesis area 23 can be arranged in two to four groups, so that the system is convenient to distribute under the condition of being beneficial to spacing planting.

The photosynthesis area 23 is internally provided with a humidity sensor and a temperature sensor for carrying out ventilation and spray feedback on plants according to the detected values, the temperature and the humidity are respectively carried out through the temperature sensor and the humidity sensor, a plurality of inclined distribution pipes 22 are fixed at the top of the winding ring 21, a collecting box 24 is arranged at the outer side of the winding ring 21, the collecting box 24 is in sealed connection with the ground ventilation pipe 1 through a pipeline, a valve is fixedly arranged at the outer side of the pipeline, one end of the ground ventilation pipe 1 is provided with an air inlet end 11, if the carbon neutralization condition in the value judgment area is low, the air inlet end 11 can be connected with a fan through the feedback of the humidity and the temperature when the temperature is high, so that wind power can be pushed into the ground ventilation pipe 1 and enter the winding ring 21 to be discharged from the inclined distribution pipes 22, the plant is ventilated through the inclined distributing pipe 22, the blades are ventilated through the air holes, the photosynthesis rate of crops is improved through the ventilation, when the humidity is low, the valve connected with the collecting header 24 can be opened, water flow can flow into the ground ventilation pipe 1, and liquid can be pushed into the winding ring 21 through the air pressure generated by the air inlet end 11, so that the liquid can be sprayed through the inclined distributing pipe 22 to promote photosynthesis, the moisture in the collecting header 24 can be directly collected and used in rainy days, the angle of the inclined distributing pipe 22 can be adjusted according to the needs in the specific use process of the inclined distributing pipe 22, the inclined distributing pipe 22 can reach the point of the needed position, for example, the water can be directly sprayed on the plant from the lower part to the upper part, the liquid sprayed by the inclined distributing pipe 22 can be parabolic after the angle adjustment, the adjacent crops are used for mutual spraying, the water is prevented from being lacked to close the air holes of the blades, carbon dioxide is influenced to enter the blades, and meanwhile the problems that starch hydrolysis of the blades is enhanced due to the lack of water, saccharides are accumulated and photosynthetic products are slowly output can be avoided.

In order to prevent the blade from being influenced by the larger impact force of the sudden rain when the sudden rain is met, the rainwater can be collected in the water storage gravity box 37, one end of the light-transmitting waterproof cloth 33 is fixed on the fixed frame 31, the other end of the light-transmitting waterproof cloth 33 is fixed on the stress movable frame 32, the horizontal position of one end on the fixed frame 31 is lower than that of one end on the stress movable frame 32, a fixed seat 35 is arranged below the stress movable frame 32, the top end of the fixed seat 35 is fixedly connected with a limit guide rail 36, the bottom of the water storage gravity box 37 is fixedly connected with a forward force limit slide block 321, the forward force limit slide block 321 slides in the limit guide rail 36 and drives the forward force limit slide block 321 to slide in the limit guide rail 36 under the action of gravity, the stress movable frame 32 can move towards the direction of crops, and the movement track of the light-transmitting waterproof cloth 33 is that the position of one end on the fixed frame 31 is unchanged because the two ends of the light-transmitting waterproof cloth 33 are respectively distributed in a lower height, the two light-transmitting waterproof cloths 33 are spread to protect plants after the movement is completed, the influence of heavy rainfall on the plants is reduced, so as to promote photosynthesis, meanwhile, the light-transmitting waterproof cloths 33 are distributed with a certain inclination, according to the setting of the position and the height, one ends of the two opposite light-transmitting waterproof cloths 33, which are close to crops, can be distributed up and down, the two light-transmitting waterproof cloths 33 play a good role in shielding, the water storage gravity box 37 and the limiting guide rail 36 are provided with drainage holes, the drainage capacity of the water storage gravity box 37 is smaller than the water inlet capacity in heavy rain weather, rainwater can be always stored in the water storage gravity box 37, along with the stop or the reduction of the rain, the water in the water storage gravity box 37 is drained, the elastic ropes 34 are connected between the fixed frame 31 and the stress movable frame 32, the elastic rope 34 is parallel to the limit guide rail 36, and the stressed movable frame 32 can reset under the action of the elastic rope 34, so that the forward force limit sliding block 321 can slide in the limit guide rail 36, and the light-transmitting waterproof cloth 33 contracts to return to the original state.

As shown in fig. 1-5, the invention also provides a method for using the carbon neutralization monitoring system, which comprises the following specific steps:

a: the photosynthesis area 23 is monitored for temperature, humidity and carbon dioxide values, and according to the values, the carbon neutralization conditions in the area are judged, if the carbon neutralization effect is low, the temperature is fed back by humidity, when the temperature is high, the temperature is blown to plants to ventilate, and when the humidity is low, the liquid is sprayed by the inclined distribution pipe 22 to promote photosynthesis;

b: when encountering heavy rain, rainwater can be collected in the water storage gravity box 37, so that the forward force limiting slide block 321 is driven to slide in the limiting guide rail 36 under the action of gravity, the two light-transmitting waterproof cloths 33 are opened to protect plants, and the influence of heavy rainfall on the plants is reduced, so that photosynthesis is promoted.

The working principle of the invention is as follows: the forest can be regional to construct the system, carbon dioxide content in a detection area can be detected through a carbon dioxide detection module, the carbon dioxide detection module can be a carbon dioxide detector, the gas content in the detection area is low in carbon neutralization efficiency if the content is high, the state of plants needs to be judged, when the system is constructed, the ground ventilation pipe 1 is arranged on the ground or at the buried ground, the winding circle 21 can be arranged at the trunk position, the photosynthesis area 23 formed in the winding circle 21 is generated by photosynthesis of plants, the photosynthesis area 23 can be arranged into two to four groups, under the condition of being beneficial to spaced planting, the distribution of the system is convenient, the temperature, the humidity and the numerical value of carbon dioxide are monitored in the photosynthesis area 23, the temperature and the humidity are respectively carried out through the arranged temperature sensor and the humidity sensor, according to the carbon neutralization condition in the numerical value judgment area, if the carbon neutralization effect is low, a fan can be connected to the air inlet end 11 when the temperature is high through the feedback of humidity and temperature, so that wind force can be pushed into the ground ventilation pipe 1 and enter the winding ring 21, the wind force is discharged from the inclined distribution pipe 22, plants are blown to the inclined distribution pipe 22 for ventilation, the blades are led into the air holes for strengthening ventilation to improve the photosynthesis rate of crops, when the humidity is low, the valve on the connecting and receiving box 24 can be opened, so that water flow can flow into the ground ventilation pipe 1, and liquid can be pushed into the winding ring 21 through the pressure of gas generated by the air inlet end 11, so that the liquid can be sprayed through the inclined distribution pipe 22 to promote photosynthesis, and the moisture in the collecting box 24 can be directly collected and used in a rainy day, in the specific use process of the inclined distribution pipe 22, the angle of the inclined distribution pipe 22 can be adjusted according to the requirement, so that the inclined distribution pipe 22 reaches the point of a required position, for example, the inclined distribution pipe 22 is directly sprayed on plants from bottom to top for spraying, for example, after the angle adjustment, liquid sprayed by the inclined distribution pipe 22 can be parabolic, adjacent crops are sprayed mutually, the inclined distribution pipe can be sprayed on the upper position of the crops, the problem that the air holes of blades are closed due to water shortage and carbon dioxide is prevented from being influenced to enter the blades, meanwhile, the problem that starch hydrolysis of the blades is reinforced due to water shortage, saccharides are accumulated, and photosynthetic products are slowly output can be avoided, when the problem that the heavy rain is met, the blades are influenced by larger impact force of sudden rain, rainwater can be collected in a water storage gravity box 37, one end of a light-transmitting waterproof cloth 33 is fixed on a fixed frame 31, the other end of the light-transmitting waterproof cloth 33 is fixed on a stressed movable frame 32, one end of the fixed frame 31 is horizontally positioned lower than one end of the stressed movable frame 32, a fixed seat 35 is arranged below the stressed movable frame 32, the top end of the fixed seat 35 is fixedly connected with a limiting guide rail 36, the bottom of a water storage gravity box 37 is fixedly connected with a forward force limiting slide block 321, the forward force limiting slide block 321 slides in the limiting guide rail 36 and drives the forward force limiting slide block 321 to slide in the limiting guide rail 36 under the action of gravity, the stressed movable frame 32 can move towards the direction of crops, as the two ends of the light-transmitting waterproof cloth 33 are respectively distributed in a lower-upper mode, the movement track of the light-transmitting waterproof cloth 33 is the same as the position of one end of the fixed frame 31, the position of one end of the stressed movable frame 32 tends to move downwards, the movement is completed, the two light-transmitting waterproof cloths 33 are opened to protect plants, the influence of strong rainfall on the plants is reduced, and photosynthesis is promoted, meanwhile, the light-transmitting waterproof cloths 33 are distributed at a certain inclination, according to the setting of the positions and the heights, one ends, close to crops, of the two opposite light-transmitting waterproof cloths 33 are distributed up and down, so that the two light-transmitting waterproof cloths 33 play a good role in shielding, the water storage gravity box 37 and the limiting guide rail 36 are provided with drainage holes, in heavy rain, the drainage capacity of the water storage gravity box 37 is smaller than that of water inlet water, rainwater can be stored in the water storage gravity box 37 all the time, along with stopping or diminishing of a rainy day, water in the water storage gravity box 37 is drained, an elastic rope 34 is connected between the fixed frame 31 and the stressed movable frame 32, the elastic rope 34 is parallel to the limiting guide rail 36, the stressed movable frame 32 can reset under the action of the elastic rope 34, the forward force limiting slide block 321 can slide in the limiting guide rail 36, and the light-transmitting waterproof cloth 33 is contracted to return to an original state.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The carbon neutralization monitoring system is characterized by comprising a ground ventilation pipe (1), wherein a trunk surrounding assembly (2) is arranged on the outer side of the ground ventilation pipe (1), the trunk surrounding assembly (2) comprises a winding ring (21) and a plurality of inclined distribution pipes (22), a photosynthesis area (23) for absorbing carbon dioxide is arranged on the inner side of the winding ring (21), and the ground ventilation pipe (1) is in sealing connection with the winding ring (21) to carry out liquid and gas penetration;

the rainwater blocking assembly is characterized in that rainwater blocking assemblies (3) are arranged on two sides of the ground paving ventilation pipe (1), each rainwater blocking assembly (3) comprises a fixing frame (31), a stress movable frame (32) and light-transmitting waterproof cloth (33), a water storage gravity box (37) used for rainwater driving movement is fixedly connected to the outer wall of the stress movable frame (32), and the two light-transmitting waterproof cloth (33) are distributed in a staggered mode to shield rainwater.

2. The carbon neutralization monitoring system as claimed in claim 1, wherein a plurality of inclined distribution pipes (22) are fixed at the top of the winding ring (21), a collecting box (24) is arranged at the outer side of the winding ring (21), the collecting box (24) is in sealing connection with the ground ventilation pipe (1) through a pipeline, a valve is fixedly arranged at the outer side of the pipeline, and an air inlet end (11) is arranged at one end of the ground ventilation pipe (1).

3. A carbon neutralization monitoring system as claimed in claim 1, wherein one end of the light-transmitting waterproof cloth (33) is fixed on the fixed frame (31), the other end of the light-transmitting waterproof cloth (33) is fixed on the stress movable frame (32), and one end on the fixed frame (31) is horizontally positioned lower than one end on the stress movable frame (32).

4. The carbon neutralization monitoring system as claimed in claim 2, wherein a fixed seat (35) is arranged below the stressed movable frame (32), a limit guide rail (36) is fixedly connected to the top end of the fixed seat (35), a forward limit slider (321) is fixedly connected to the bottom of the water storage gravity tank (37), and the forward limit slider (321) slides in the limit guide rail (36).

5. A carbon neutral monitoring system as claimed in claim 4, characterized in that a bungee cord (34) is connected between the stationary frame (31) and the force-receiving movable frame (32), the bungee cord (34) being parallel to the limit rail (36).

6. The carbon neutralization monitoring system as claimed in claim 1, wherein a carbon dioxide detection module is provided in the photosynthesis zone (23), and the effect of carbon neutralization is judged based on the value detected by the carbon dioxide detection module.

7. A carbon neutralisation monitoring system according to claim 1, characterised in that humidity and temperature sensors are provided in the photosynthesis zone (23) and that ventilation and spray feedback is applied to the plants in dependence on the detected values.

8. The carbon neutralization monitoring system as recited in claim 4, wherein both the water storage gravity tank (37) and the limit guide rail (36) are provided with drain holes, and a water collecting pipe is arranged outside the collecting tank (24).

9. A method of using a carbon neutral monitoring system as claimed in any one of claims 1 to 8, wherein: the using method comprises the following steps:

a: the photosynthesis area (23) is internally monitored with the temperature, humidity and carbon dioxide values, and according to the carbon neutralization conditions in the value judgment area, if the carbon neutralization effect is low, the temperature is high through the feedback of humidity temperature, the plants are ventilated through the inclined distribution pipes (22), and when the humidity is low, the liquid is sprayed through the inclined distribution pipes (22) so as to promote photosynthesis;

b: when encountering heavy rain weather, can make the rainwater collect in depositing water gravity case (37), thereby drive under the effect of gravity along power spacing slider (321) slide in spacing guide rail (36), make two printing opacity waterproof cloth (33) open and protect the plant, reduce the influence of heavy rainfall to the plant, with the promotion photosynthesis.